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International Journal of Phytoremediation Volume 13, 2011 - Issue sup1: 6th International Phytotechnologies Conference St. Louis, MO, 2009
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Original Articles

Copper Phytoextraction in Tandem with Oilseed Production Using Commercial Cultivars and Mutant Lines of Sunflower

A. Kolbasa UMR BIOGECO INRA 1202, Ecology of Communities, University of Bordeaux 1, Talence, France
,
M. Mencha UMR BIOGECO INRA 1202, Ecology of Communities, University of Bordeaux 1, Talence, France
,
R. Herzigb Phytotech-Foundation, Berne, Switzerland
,
E. Nehnevajovac Institute of Biology/Applied Genetics, Free University of Berlin, Berlin, Germany
&
C. M. Besa UMR BIOGECO INRA 1202, Ecology of Communities, University of Bordeaux 1, Talence, France
Pages 55-76 | Published online: 03 Aug 2011

REFERENCES

  • Afnor X31–103, 1994. "Détermination du pH dans l’eau. Méthode électrométrique". In: Afnor, , ed. Qualité des Sols–recueil de normes Françaises. Paris: Afnor; 1994. pp. 339–347.
  • Agritaine Bio 2, 2009. "Essais variétaux de tournesol en culture bio dans les Landes. Bulletin d’information bio des chambres d’agriculture d’Aquitaine; [cited 22 January, 2010]". 2009, Available from: http://www.aquitainagri.org/PUBLICATIONS/pdf.publi/Agritaine%20Bio2-Janv2009-A4.pdf.
  • Baize, D., 1997. Teneurs totales en eléments traces métalliques dans les sols de Seine-et-Marne (France), Etude et gestion des Sols. 4 (2) (1997), pp. 77–97.
  • Baize, D, and Tercé, M, 2002. Les Éléments Traces Métalliques dans les Sols – Approches Fonctionnelles et Spatiales. Paris: INRA Éditions. 565 pages; 2002.
  • Baker, A., 1981. Accumulators and excluders - strategies in the response of plants to heavy-metals, J Plant Nutr. 3 (1981), pp. 643–654.
  • Bes, C, and Mench, M, 2008. Remediation of copper-contaminated topsoils from a wood treatment facility using in situ stabilisation, Environ Pollut. 156 (2008), pp. 1128–1138.
  • Bes, C, Mench, M, Aulen, M, Gaste, H, and Taberly, J, 2010. Spatial variation of plant communities and shoot Cu concentrations of plant species at a timber treatment site, Plant Soil. 330 (1–2) (2010), pp. 267–280.
  • Bes, C., 2008. "Phytoremédiation des Sols d’un Site de Traitement du Bois Contaminés par le Cuivre [PhD dissertation]". Talence, France: University of Bordeaux; 2008. p. 293.
  • Beziat, P, Ceschia, E, and Dedieu, G, 2009. Carbon balance of a three crop succession over two cropland sites in South West France, Agric Forest Meteorol. 149 (2009), pp. 1628–1645.
  • Carrier, M, Mench, M, Loppinet-Serani, A, Cansell, F, Aymonier, C, Marias, F, and Mercadier, J, 2008. "Valorisation of phytoremediation biomasses with supercritical water". In: Bert, V, ed. Phytotechnologies in practice: biomass production, agricultural methods, legacy, legal and economic aspects. Verneuil-en-Halatte, France: Cost Action; 2008. pp. 51–52.
  • CETIOM, 2008. "Campagne tournesol 2008. Synthèse des essais variétés: sud-ouest/sud-est". 2008, [cited 2010 January 22]. Available from: http://www.cetiom.fr/index.php?id=11175#34857.
  • CETIOM, 2009a. "Diagnostic foliaire: à réaliser en début de floraison". 2009a, [cited 2010 January 19]. Available from: http://www.cetiom.fr/index.php?id=11481.
  • CETIOM, 2009b. "Le Tournesol: en remplacement d’une céréale.…oui mais attention à la réglementation". 2009b, [cited 2009 October 6]. Available from http://www.cetiom.fr/index.php?id=11360.
  • Chaney, R L, 1989. "Toxic element accumulation in soils and crops: protecting soil fertility and agricultural food-chains". In: Bar-Yosef, B, Barrow, N J, and Goldshmid, J, eds. Inorganic contaminants in the vadose zone. Berlin: Springer-Verlag; 1989. pp. 140–158, .
  • Claus, D, Dietze, H, Gerth, A, Grosser, W, and Hebner, A, 2007. Application of agronomic practice improves phytoextraction on a multipolluted site, J Environ Eng Landscape Manage 15 (2007), pp. 208–212.
  • Delhaize, E., 1996. A metal-accumulator mutant of Arabidopsis thaliana, Plant Physiol. 111 (1996), pp. 849–855.
  • Dickinson, N M, Baker, A, Doronila, A, Laidlaw, S, and Reeves, R, 2009. Phytoremediation of inorganics: realism and synergies, Int J Phytorem. 11 (2009), pp. 97–114.
  • Fässler, E, Robinson, B H, Gupta, S K, and Schulin, R, 2010. Uptake and allocation of plant nutrients and Cd in maize, sunflower and tobacco growing on contaminated soil and the effect of soil conditioners under field conditions, Nutr Cycl Agroecosys. 87 (2010), pp. 339–352.
  • Forsberg, L S, Kleja, D B, Greger, M, and Ledin, S, 2009. Effects of sewage sludge on solution chemistry and plant uptake of Cu in sulphide mine tailings at different weathering stages, Appl Geochem. 24 (2009), pp. 475–482.
  • Friesl, W, Friedl, J, Platzer, K, Horak, O, and Gerzabek, M H, 2006. Remediation of contaminated agricultural soils near a former Pb/Zn smelter in Austria: Batch, pot and field experiments, Environ Pollut. 144 (2006), pp. 40–50.
  • Gadepalle, V P, Ouki, S K, and Hutchings, T, 2009. Remediation of copper and cadmium in contaminated soils using compost with inorganic amendments, Water Air Soil Pollut. 196 (2009), pp. 355–368.
  • Grispen, V MJ, Nelissen, H JM, and Verkleij, J AC, 2006. Phytoextraction with Brassica napus L.: a tool for sustainable management of heavy metal contaminated soils, Environ Pollut. 144 (2006), pp. 77–83.
  • Guadagnini, M, 2000. "In vitro-Breeding for Metal-Accumulation in two Tobacco (Nicotiana tabacum) Cultivars [PhD Dissertation]. [Freiburg (Switzerland)]". University Freiburg, Institute of Biology; 2000. p. 111.
  • Gunkel, P, Roth, E, and Fabre, B, 2003. Copper distribution in chemical soil fractions and relationships with maize crop yield, Environ Chem Lett. 1 (2003), pp. 92–97.
  • Gupta, R, and Das, S, 1997. Physical properties of sunflower seeds, J Agric Eng Res. 66 (1997), pp. 1–8.
  • Gupta, U C, and Gupta, S C, 1998. Trace element toxicity relationships to crop production and livestock and human health: implications for management, Commun Soil Sci Plant Anal. 29 (1998), pp. 1491–1522.
  • Herzig, R, Guadagnini, M, Rehnert, A, and Erismann, K H, 2003. "Phytoextraction efficiency of improved tobacco variants using a non-GMO-approach". In: COST Action 837 Workshop on “Phytoremediation of toxic metals.”. Stockholm, Sweden. 2003, [cited 2010 January 22]. Available from: http://lbewww.epfl.ch/COST837/abstracts_stockholm/Session3.pdf.
  • Herzig, R, Nehnevajova, E, Bourigault, C, and Schwitzguébel, J P, 2007. "Fast reduction of soluble zinc on a metal contaminated site using selected tobacco plants and appropriate fertilization techniques". In: Baltrenaite, E, ed. Fate of pollutants in the plant/rhizosphere system: fundamental aspects and their significance for field applications—prospects and research needs. Vilnius, Lithuania: VGTU Press Technica; 2007. pp. 67–68.
  • Herzig, R, Ricci, A, Nehnevajova, E, Schwitzguébel, J P, and Keller, C, 2009. "The phytoextraction efficiency for soluble zinc and other metals from a contaminated top soil using improved non-GM mutants of tobacco and sunflower–Assessment of a two year time series field experiment". In: Schwitzguébel, J P, ed. Phyto 2009, COST Action 859. Monte Verità, Switzerland: Centro Stefano Franscini; 2009. pp. 65–66.
  • Hu, N J, Luo, Y M, Wu, L H, and Song, J, 2007. A field lysimeter study of heavy metal movement down the profile of soils with multiple metal pollution during chelate-enhanced phytoremediation, Int J Phytorem. 9 (2007), pp. 257–268.
  • Institut Français des Huiles Végétales Pures (IFHVP), 2005. L’huile végétale pure végétole., Fiche Energie Environnement (2005), p. 21, [cited 21 January 2010]. Available from: http://www.uclm.es/area/amf/Antoine/Fusion/Informe_IFVP_fr.pdf.
  • Jadia, C D, and Fulekar, M H, 2008. Phytoremediation: the application of vermicompost to remove zinc, cadmium, copper, nickel and lead by sunflower plant, Environ Eng Manage J. 7 (2008), pp. 547–558.
  • Kayser, A, Wenger, K, Keller, A, Attinger, W, Felix, H R, Gupta, S K, and Schulin, R, 2000. Enhancement of phytoextraction of Zn, Cd, and Cu from calcareous soil: the use of NTA and sulfur amendments, Environ Sci Technol. 34 (2000), pp. 1778–1783, .
  • Keller, C, Hammer, D, Kayser, A, Richner, W, Brodbeck, M, and Sennhauser, M, 2003. Root development and heavy metal phytoextraction efficiency: comparison of different plant species in the field, Plant Soil. 249 (2003), pp. 67–81.
  • Khalilvand-Behrouzyar, E, Yarnia, M, Darbandi, S, and Alyari, H, 2007. Effect of drought stress on some morphological characteristics of two sunflower (Helianthus annuus) hybrids at different planting densities, J New Agric Sci. 8 (2007), pp. 1–13.
  • Kos, B, and Lestan, D, 2004. Chelator induced phytoextraction and in situ soil washing of Cu, Environ Pollut. 132 (2004), pp. 333–339.
  • Küpper, H, Mijovilovich, A, Götz, B, Kroneck, P MH, Küpper, F C, and Meyer-Klaucke, W, 2009. Complexation and toxicity of copper in higher plants (I): characterisation of copper accumulation, speciation and toxicity in Crassula helmsii as a new copper hyperaccumulator, Plant Physiol. 151 (2009), pp. 702–714.
  • Lagomarsino, A, Mench, M, Marabottini, R, Pignataro, A, Grego, S, Renella, G, and Stazi, S R, 2011. Copper distribution and hydrolase activities in a contaminated soil amended with dolomitic limestone and compost, Icotoxical Environ Saf. (2011), (accepted).
  • Lespes, G, and Chéry, P, 2009. "De l’échantillonnage au diagnostic: identification des besoins". In: Séminaire sols pollués sur de grandes surfaces. ENSCPB et EGID Bordeaux III, 16 juin, Bordeaux, France. 2009, [cited 2010 January 19]. Available from: http://perso.egid.u-bordeaux3.fr/~atteia/SeminSPOLL/.
  • Lievens, C, Yperman, J, Vangronsveld, J, and Carleer, R, 2008. Study of the potential valorisation of heavy metal contaminated biomass via phytoremediation by fast pyrolysis: Part I. Influence of temperature, biomass species and solid heat carrier on the behaviour of heavy metals, Fuel. 87 (2008), pp. 1894–1905.
  • Lin, J X, Jiang, W S, and Liu, D H, 2001. Accumulation of copper by roots, hypocotyls, cotyledons and leaves of sunflower (Helianthus annuus L.), Bioresour Technol. 2 (2001), pp. 151–155.
  • Liphadzi, M S, Kirkham, M B, Mankin, K R, and Paulsen, G M, 2003. EDTA-assisted heavy-metal uptake by poplar and sunflower grown at a long-term sewage-sludge farm, Plant Soil. 257 (2003), pp. 171–182.
  • Lombi, E, Gerzabek, M H, and Horak, O, 1998. Mobility of heavy metals in soil and their uptake by sunflowers grown at different contamination levels, Agronomie 18 (5–6) (1998), pp. 361–371.
  • Lyberatos, G, 2009. "Biotechnological processes for the valorisation of waste for the production of fuels and/or useful by-products". In: Sakharov Readings 2009: Environmental Problems of the XXI Century. Proc Int Sci Conf. 2009. p. 163.
  • MacNicol, R D, and Beckett, P HT, 1985. Critical tissue concentrations of potentially toxic elements, Plant Soil. 85 (1985), pp. 107–129.
  • Madejón, P, Murillo, J M, Maranón, T, Cabrera, F, and Soriano, M A, 2003. Trace element and nutrient in sunflower plants two years after the Anzalcóllar mine spill, Sci Total Environ. 307 (2003), pp. 239–257.
  • Marchiol, L, Fellet, G, Perosa, D, and Zerbi, G, 2007. Removal of trace metals by Sorghum bicolor and Helianthus annuus in a site polluted by industrial wastes: a field experience, Plant Physiol Biochem. 45 (2007), pp. 379–387.
  • Meers, E, Ruttens, A, Hopgood, M, Lesage, E, and Tack, F MG, 2005. Potential of Brassic rapa, Cannabis sativa, Helianthus annuus and Zea mays for phytoextraction of heavy metals from calcareous dredged sediment derived soils, Chemosphere. 61 (2005), pp. 561–572.
  • Memon, AR., 2009. "Transcriptome analysis of metal accumulator plant Brassica nigra". In: Schwitzguébel, J P, ed. Phyto 2009, COST Action 859. Monte Verità, Switzerland: Centro Stefano Franscini; 2009. pp. 145–147.
  • Mench, M, and Bes, C, 2009. Assessment of the ecotoxicity of topsoils from a wood treatment site, Pedosphere. 19 (2009), pp. 143–155, .
  • Mench, M, Schwitzguébel, J P, Schroeder, P, Bert, V, Gawronski, S, and Gupta, S, 2009. Assessment of successful experiments and limitations of phytotechnologies: contaminant uptake, detoxification and sequestration, and consequences for food safety, Environ Sci Pollut Res. 16 (2009), pp. 876–900.
  • Mench, M, Lepp, N, Bert, V, Schwitzguébel, J P, Schröder, P, Gawronski, S, and Vangronsveld, J, 2010. Successes and limitations of phytotechnologies at field scale: outcomes, assessment and outlook from COST Action 859, J Soils Sediments. 10 (6) (2010), pp. 1039–1070.
  • Monteiro, M R, Ambrozin, A RP, Liao, L M, and Ferreira, A G, 2008. Critical review on analytical methods for biodiesel characterization, Talanta. 77 (2008), pp. 593–605.
  • Munn, J, January, M, and Cutright, T J, 2008. Greenhouse evaluation of EDTA effectiveness at enhancing Cd, Cr, and Ni uptake in Helianthus annuus and Thlaspi caerulescens, J Soils Sediments. 8 (2008), pp. 116–122.
  • Murakami, M, and Ae, N, 2009. 2009, Potential for phytoextraction of copper, lead, and zinc by rice (Oryza sativa L.), soybean (Glycine max [L.] Merr.) and maize (Zeamays L.). J. Hazard Mater. 162:1185–1192..
  • Murillo, M, Maranón, T, Cabrera, F, and López, R, 1999. Accumulation of heavy metals in sunflower and sorghum plants affected by the Guadiamar spill, Sci Total Environ. 242 (1999), pp. 281–292.
  • Nehnevajova, E, Herzig, R, Federer, G, Erismann, K H, and Schwitzguébel, J P, 2005. Screening of sunflower cultivars for metal phytoextraction in a contaminated field prior to mutagenesis, Int J Phytorem. 7 (2005), pp. 337–349.
  • Nehnevajova, E, Herzig, R, Erismann, K H, and Schwitzguébel, J P, 2007a. In vitro breeding of Brassica juncea L. to enhance metal accumulation and extraction properties, Plant Cell Rep. 26 (2007a), pp. 429–437.
  • Nehnevajova, E, Herzig, R, Federer, G, Erismann, K H, and Schwitzguébel, J P, 2007b. Chemical mutagenesis – a promising technique to increase metal concentration and extraction in sunflowers, Int J Phytorem. 9 (2007b), pp. 149–165.
  • Nehnevajova, E, Herzig, R, Bourigault, C, Bangerter, S, and Schwitzguébel, J P, 2009a. Stability of enhanced yield and metal uptake by sunflower mutants for improved phytoremediation, Int J Phytorem. 4 (2009a), pp. 329–346.
  • Nehnevajova, E, Lyubenova, L, Herzig, R, Shröder, P, Schmülling, T, and Schwitzguébel, J P, 2009b. "Metal accumulation and antioxidative response in seedlings and adult sunflower mutant lines on a metal-contaminated soil". In: Schwitzguébel, J P, ed. Phyto 2009, COST Action 859. Monte Verità, Switzerland: Centro Stefano Franscini; 2009b. pp. 47–48.
  • Organisation Nationale Interprofessionnelle des Oléagineux (ONIDOL), 2009. Chiffres Clés 2008. 2009, [cited 2010 January 22]. Available from: http://www.cetiom.fr/fileadmin/cetiom/chiffres/onidol_chiffres_cles_2008.pdf.
  • Paton, A, and Brooks, R R, 1996. A re-evaluation of Haumaniastrum species as geobotanical indicators of copper and cobalt, J Geochem Explor. 56 (1996), pp. 37–45.
  • Robinson, B H, Leblanc, M, Petit, D, Brooks, R R, Kirkman, J, and Gregg, P EH, 1998. "The potential of some plant hyperaccumulators for phytoremediation of contaminated soils". In: Proc 16th World Congress of Soil Sci. 1998. pp. 1–16, [cited 16 January 2010]. Available from: http://natres.psu.ac.th/Link/SoilCongress/bdd/symp38/102-t.pdf.
  • Sauvé, S, McBride, M, Norvell, W A, and Hendershot, W, 1997. Copper solubility and speciation of in situ contaminated soils: effects of copper level, pH and organic matter, Water Air Soil Pollut. 100 (1997), pp. 133–149.
  • Sauvé, S., 2003. "Modelling trace element exposure and effects on plants". In: Mench, M, and Mocquot, B, eds. Risk assessment and austainable land management using plants in trace element-contaminated soils. Villenave d’Ornon, France: Centre INRA Bordeaux-Aquitaine; 2003. pp. 69–70, [cited 22 January 2010]. Available from: http://w3.gre.ac.uk/cost859/book/Livre_COST837_2003_session_1.pdf.
  • Schmidt, U., 2003. Enhancing phytoextraction: the effect of chemical soil manipulation on mobility, plant accumulation, and leaching of heavy metals, J Environ Qual. 32 (2003), pp. 1939–1954.
  • Shamsi, K, and Petrosyan, M, 2008. "Effects of planting density on yield and yield components of three sunflower varieties". In: Agricultural and biosystems engineering for a sustainable world. Hersonissos Crete, Greece: Int Conf Agric Eng; 2008. p. 84, .
  • Song, J, Zhao, F J, Luo, Y M, McGrath, S P, and Zhang, H, 2004. Copper uptake by Elsholtzia splendens and Silene vulgaris and assessment of copper phytoavailability in contaminated soils, Environ Pollut. 128 (2004), pp. 307–315.
  • Soudek, P, Valenova, P, Benesova, D, and Vanek, T, 2007. From laboratory experiments to large scale application—an example of the phytoremediation of radionuclides, NATO Science Series IV Earth Environ Sci. 75 (2007), pp. 139–158.
  • Tahsin, N, and Yankov, B, 2007. Research on accumulation of zinc (Zn) and cadmium (Cd) in sunflower oil, J Tekirdag Agric Fac. 4 (2007), pp. 109–112.
  • Tandy, S, Schulin, R, and Nowack, B, 2006. Uptake of metals during chelant-assisted phytoextraction with EDDS related to the solubilized metal concentration, Environ Sci Technol. 40 (2006), pp. 2753–2758.
  • Tejklová, E, Blažek, O, Smýkalová, I, Vrbová, M, Větrovcová, M, and Griga, M, 2007. "In vitro screening of Linum usitatissimum L. varieties for Cd-tolerance and Cd-accumulation". In: Golan, A, ed. Nutrient biofortification and exclusion of pollutants in food plants. Proc. COST Action 859. Sede-Boqer, Israel: Ben-Gurion University of the Negev; 2007. p. 31.
  • Tupkanjana, P, and Phalakornkule, O., 2007. 2007, Development of activated carbons from sunflower seed husk for metal adsorption. J Chem Eng Jap. 40:222–227..
  • Vangronsveld, J, Herzig, R, Weyens, N, Boulet, J, Adriaensen, K, Ruttens, A, Thewys, T, Vassilev, A, Meers, E, Nehnevajova, E, Van Der Lelie, D, and Mench, M, 2009. Phytoremediation of contaminated soils and groundwater: lessons from the field, Environ Sci Pollut Res. 16 (2009), pp. 765–794.
  • Van Nevel, L, Mertens, J, Oorts, K, and Verheyen, K, 2007. Phytoextraction of metals from soils: how far from practice?, Environ Pollut. 150 (2007), pp. 34–40.
  • Verbruggen, N, Hermans, C, and Schat, H, 2009. Molecular mechanisms of metal hyperaccumulation in plants, New Phytol. 181 (2009), pp. 759–776.
  • Wei, S H, da Silva, J AT, and Zhou, Q X, 2008. Agro-improving method of phytoextracting heavy metal contaminated soil, J Hazard Mater. 3 (2008), pp. 662–668.
  • Yankov, B, and Tahsin, N, 2001. Accumulation and distribution of Pb, Cu, Zn and Cd in sunflower (Helianthus annuus L.) grown in an industrially polluted region, Helia. 24 (2001), pp. 131–136.
  • Ye, M, Li, J T, Tian, S N, Hu, M, Yi, S, and Liao, B, 2009. Biogeochemical studies of metallophytes from four copper-enriched sites along the Yangtze River, China, Environ. Geol. 56 (2009), pp. 1313–1322.
  • Zhao, F J, and McGrath, S P, 2009. Biofortification and phytoremediation, Curr Opin Cell Biol. 12 (2009), pp. 373–380.

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